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  1. ADNP protein functions in brain development
  2. Pyramidal neuron morphogenesis requires a septin network that stabilizes filopodia and suppresses lamellipodia during neurite initiation
  3. Nuak kinase signaling in the central nervous system
  4. KIFC1 Regulates the Trajectory of Neuronal Migration
  5. Additional responsible genes for Miller-Dieker syndrome and 17p13.3 microduplication syndrome
  6. PEDF-Rpsa-Itga6 regulates the formation of neuronal morphology
  7. TNFR2/14-3-3ε signaling complex instructs macrophage plasticity in inflammation and autoimmunity
  8. Roles of Aurora and Nuak Kinases in Neuromorphogenesis
  9. Gstp regulates neurite initiation during cortical development
  10. Roles of Aurora and Nuak Kinases in Neuromorphogenesis
  11. Multiple functions of Adnp protein in cortical development
  12. Gstp regulates neurite initiation during cortical development
  13. PEDF-Rpsa-Itga6 regulates the formation of neuronal morphology
  14. Protein Kinases in Neurite Formation
  15. Methionine sulfoxide reductase A (MsrA) mediates the ubiquitination of 14-3-3 protein isotypes in brain
  16. Microdeletion and Microduplication of Chromosome 17p13.3
  17. 14-3-3 Proteins in Brain Development
  18. 14-3-3epsilon deficient mice show multiple defects in neuropsychiatric behavior
  19. 14-3-3epsilon overexpression causes neurite formation defects
  20. 14-3-3epsilon overexpression causes neurite formation defects
  21. Overexpression of the 14-3-3gamma protein in embryonic mice results in neuronal migration delay in the developing cerebral cortex
  22. Deficiency of 14-3-3ε and 14-3-3ζ by the Wnt1 promoter-driven Cre recombinase results in pigmentation defects
  23. Ablation of the 14-3-3gamma Protein Results in Neuronal Migration Delay and Morphological Defects in the Developing Cerebral Cortex
  24. 14-3-3  and   Regulate Neurogenesis and Differentiation of Neuronal Progenitor Cells in the Developing Brain
  25. 14-3-3  Plays a Role in Cardiac Ventricular Compaction by Regulating the Cardiomyocyte Cell Cycle
  26. Neurodevelopmental and neuropsychiatric behaviour defects arise from 14-3-3ζ deficiency
  27. Identification of YWHAE, a gene encoding 14-3-3epsilon, as a possible susceptibility gene for schizophrenia
  29. Protein phosphatase 4 catalytic subunit regulates Cdk1 activity and microtubule organization via NDEL1 dephosphorylation
  30. Neuroepithelial Stem Cell Proliferation Requires LIS1 for Precise Spindle Orientation and Symmetric Division
  31. NDEL1 Phosphorylation by Aurora-A Kinase Is Essential for Centrosomal Maturation, Separation, and TACC3 Recruitment
  32. Mnt-Deficient Mammary Glands Exhibit Impaired Involution and Tumors with Characteristics of Myc Overexpression
  33. Recruitment of katanin p60 by phosphorylated NDEL1, an LIS1 interacting protein, is essential for mitotic cell division and neuronal migration
  34. Complete Loss of Ndel1 Results in Neuronal Migration Defects and Early Embryonic Lethality
  35. Loss of the Max-interacting protein Mnt in mice results in decreased viability, defective embryonic growth and craniofacial defects: relevance to Miller-Dieker syndrome
  36. Evidence of Mnt-Myc Antagonism Revealed by Mnt Gene Deletion
  37. Deletion of Mnt leads to disrupted cell cycle control and tumorigenesis
  38. Miller-Dieker Syndrome: Analysis of a Human Contiguous Gene Syndrome in the Mouse
  39. 14-3-3ε is important for neuronal migration by binding to NUDEL: a molecular explanation for Miller–Dieker syndrome
  40. Refinement of a 400-kb Critical Region Allows Genotypic Differentiation between Isolated Lissencephaly, Miller-Dieker Syndrome, and Other Phenotypes Secondary to Deletions of 17p13.3
  41. Reversible CD8 expression induced by common cytokine receptor γ chain-dependent cytokines in a cloned CD4+ Th1 cell line
  42. Functional annotation of a full-length mouse cDNA collection
  43. TBX1 Is Responsible for Cardiovascular Defects in Velo-Cardio-Facial/DiGeorge Syndrome
  44. CD5 Costimulation Up-Regulates the Signaling to Extracellular Signal-Regulated Kinase Activation in CD4+CD8+ Thymocytes and Supports Their Differentiation to the CD4 Lineage
  45. Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts
  46. Association of a tetraspanin CD9 with CD5 on the T cell surface: role of particular transmembrane domains in the association
  47. A caspase inhibitor protects thymocytes from diverse signal-mediated apoptosis but not from clonal deletion in fetal thymus organ culture1This work was supported by Grants-in-Aid for Scientific Research from the Ministry of Education, Science and Cultu...
  48. A fundamental difference in the capacity to induce proliferation of naive T cells between CD28 and other co-stimulatory molecules
  50. Synergy between CD28 and CD9 costimulation for naive T-cell activation
  51. A role for CD9 molecules in T cell activation.
  52. CD28 co-stimulatory signals induce IL-2 receptor expression on antigen-stimulated virgin T cells by an IL-2-independent mechanism
  53. Suppression of allograft responses by combining alloantigen-specific i.v. pre-sensitization with suboptimal doses of rapamycin